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Fundamentals of Machine Component Design, 6th Edition



Fundamentals of Machine Component Design, 6th Edition

Robert C. Juvinall, Kurt M. Marshek

ISBN: 978-1-119-32153-8 February 2017 752 Pages

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Valued as a standard in the course, Juvinall and Marshek's Fundamentals of Machine Component Design continues to focus on the fundamentals of component design -- free body diagrams, force flow concepts, failure theories, and fatigue design, with applications to fasteners, springs, bearings, gears, clutches, and brakes.  Problem-solving skills are developed by the implementation of a proven methodology which provides a structure for accurately formulating problems and clearly presenting solutions.  The sixth edition includes additional coverage of composites, the material selection process, and wear/wear theory, along with new and updated examples and homework problems.

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Preface v

Acknowledgment ix

Symbols xiii

1 Mechanical Engineering Design in Broad Perspective 1

2 Load Analysis 39

3 Materials 84

4 Static Body Stresses 121

5 Elastic Strain, Deflection, and Stability 178

6 Failure Theories, Safety Factors, and Reliability 227

7 Impact 264

8 Fatigue 287

9 Surface Damage 341

10 Threaded Fasteners and Power Screws 373

11 Rivets, Welding, and Bonding 428

12 Springs 450

13 Lubrication and Sliding Bearings 496

14 Rolling-Element Bearings 535

15 Spur Gears 564

16 Helical, Bevel, and Worm Gears 616

Chapters 17–22: Visit the website to view the chapters 17–22

17 Shafts and Associated Parts (Web only) 653

18 Clutches and Brakes (Web only) 681

19 Belts, Chains, and Other Components (Web only) 714

20 Micro/Nanoscale Machine Elements (Web only) 737

21 Machine Component Interrelationships—A Case Study (Web only) 763

22 Design and Fabrication of the Mechanical Systems for a Remote Control Car—A Design Project Case Study (Web only) 775

A Units 785

B Properties of Sections and Solids 791

C Material Properties and Uses 795

Appendices D–J: Visit the website to view the appendices D–j

D Shear, Moment, and Deflection Equations for Beams (Web only) 830

E Fits and Tolerances (Web only) 834

F MIL-HDBK-5J, Department of Defense Handbook: Metallic Materials and Elements for Aerospace Vehicle Structures (Web only) 837

G Force Equilibrium: A Vectorial Approach (Web only) 852

H Normal Distributions (Web only) 855

I S-N Formula (Web only) 858

J Gear Terminology and Contact-Ratio Analysis (Web only) 860

Index 865

  • Many end-of-chapter problems and worked examples have been added or revised throughout the book. New homework problems outline real world safety issues adapted from actual case studies.
  • A new section introduces composite materials and their properties to the student. New references provide the student with a foundation of information regarding composite materials
  • New topics MIL-HDBK-5J and MIL-HDBK-17 are introduced which aid the student in selection and use of common engineering materials
  • Web site addresses are given throughout the text to provide the student with access to additional information on topics including industrial standards, part selection, and properties of materials.
  • A new sample problem gives the student a powerful tool to analyze complex stress states, and new related homework problems give opportunity for the student to polish analysis skills
  • Problem Solving Methodology & Graphical Procedures. The problem-solving methodology used in the text helps students to formulate machine component problems accurately and to present solutions clearly. The graphical procedures employed help students to understand and visualize what is going on, develop added insight about the significance of the results, and think about how the design might be improved
  • Emphasizes the Basic Concepts of Fracture Mechanics. This section includes stress-intensity factor charts for eight common geometric configurations. Introductory fracture mechanics problems support understanding these critical concepts
  • Extensive Coverage of Important Reference Information. Appendices include the following topics: engineering materials, processing methods, join ability, materials for machine component design, selected engineering materials, and relations between failure modes and material properties.